This morning, after seeing that the redo of the SAM Preconditioning in Monday's plan was successful, the SAM team was ready to drop-off four portions to SAM for evolved gas analysis. The power demands of SAM left little room for other activities on the first sol of the plan, but we were able to fit in some additional science on the second sol. In the afternoon of sol 2498, we'll be doing targeted science, including Mastcam and ChemCam, of the targets "Liberton" and "Torberg" to get the chemistry of the other plates near the drill target. There are also some standard environmental observations, such as Mastcam tau and crater rim extinction imaging and Navcam imaging to search for dust devils clouds. We also, on the second sol, are getting another data readout from CheMin on the sample we dropped off on Monday. The results of the SAM analysis will be available prior to planning on Friday, and based on those results, the SAM team will determine whether to do additional analysis on the Glen Etive drill sample in the weekend plan. The attached Navcam image shows the view of the Mount Sharp summit from our current location.

About this Blog

These blog updates are provided by self-selected Mars Science Laboratory mission team members who love to share what Curiosity is doing with the public.

Dates of planned rover activities described in these reports are subject to change due to a variety of factors related to the Martian environment, communication relays and rover status.

Contributors

Sterling Algermissen

Mission Operations Engineer; NASA/JPL; Pasadena, CA

Ryan Anderson

Planetary Geologist; USGS; Flagstaff, AZ

Mariah Baker

Planetary Geologist; Johns Hopkins University; Baltimore, MD

Michael Battalio

Atmospheric Scientist; Texas A&M University; College Station, TX

Kristen Bennett

Planetary Geologist; USGS; Flagstaff, AZ

Fred Calef

Planetary Geologist; NASA/JPL; Pasadena, CA

Brittney Cooper

Atmospheric Scientist; York University; Toronto, Ontario, Canada

Sean Czarnecki

Planetary Geologist; Arizona State University; Tempe, AZ

Lauren Edgar

Planetary Geologist; USGS; Flagstaff, AZ

Christopher Edwards

Planetary Geologist; Northern Arizona University; Flagstaff, AZ

Abigail Fraeman

Planetary Geologist; NASA/JPL; Pasadena, CA

Scott Guzewich

Atmospheric Scientist; NASA/GSFC; Greenbelt, MD

Samantha Gwizd

Planetary Geologist; University of Tennessee; Knoxville, TN

Ken Herkenhoff

Planetary Geologist; USGS; Flagstaff, AZ

Rachel Kronyak

Planetary Geologist; University of Tennessee; Knoxville, TN

Sarah Lamm

Planetary Geologist; LANL; Los Alamos, NM

Michelle Minitti

Planetary Geologist; Framework; Silver Spring, MD

Claire Newman

Atmospheric Scientist, Aeolis Research; Pasadena, CA

Catherine O’Connell

Planetary Geologist; University of New Brunswick; Fredericton, New Brunswick, Canada

Melissa Rice

Planetary Geologist; Western Washington University; Bellingham, WA

Mark Salvatore

Planetary Geologist; University of Michigan; Dearborn, MI

Susanne Schwenzer

Planetary Geologist; The Open University; Milton Keynes, U.K.

Ashley Stroupe

Mission Operations Engineer; NASA/JPL; Pasadena, CA

Dawn Sumner

Planetary Geologist; University of California Davis; Davis, CA

Vivian Sun

Planetary Geologist; NASA/JPL; Pasadena, CA

Lucy Thompson

Planetary Geologist; University of New Brunswick; Fredericton, New Brunswick, Canada

Ashwin Vasavada

MSL Project Scientist; NASA/JPL; Pasadena, CA

Roger Wiens

Geochemist; LANL; Los Alamos, NM

Tools on the Curiosity Rover

The Curiosity rover has tools to study clues about past and present environmental conditions on Mars, including whether conditions have ever been favorable for microbial life. The rover carries:

It's winter for Curiosity, and it's cold. That means that we have to spend extra energy heating up the instruments and motors for our activities. All of our energy comes from batteries, charged by the RTG.

Curiosity is still parked in front of an outcrop known as "Sandside Harbour" in order to investigate differences in the lighter and darker outcrop expressions. Contact science in the previous plan went well, and today we have one more opportunity to look for differences in sedimentary structures and composition before driving on to the next outcrop.

Curiosity finished up our investigation at Harlaw Rise on the weekend, and commenced our drive to an area we are (informally) calling the "Southern Outcrop," another of the ridge features that are so prominent in this part of Glen Torridon.

Curiosity has been a bit down lately-in elevation. After exploring the top of Vera Rubin Ridge (VRR) last year, the rover descended into a trough south of the ridge, dropping as much as 15 meters in elevation this spring to explore part of the clay-bearing unit.

We are continuing our exploration of Glen Torridon (the clay-bearing unit) and the varied lithologies exposed in this area of Gale crater, including more rubbly bedrock that is mixed with sand, and more coherent bedrock exposed both in the ground and capping prominent ridges.

It's a good thing that Curiosity doesn't have any competition on the road as she drives fervently across undulating terrain towards a large geologic ridge of unknown origin (informally named "Waypoint 4").

The original plan for Sol 2429 involved a "touch-and-go" where the rover would have engaged in contact science (that's the "touch" portion) followed by a drive (the "go" portion), but through discussion the instrument leads determined tactically that they were satisfied with the contact science already acquired at this location.

On Sol 2420 Curiosity drove ~61 m back to the "Woodland Bay" target, to analyze some interesting thick and thin laminations within the bedrock that we had observed previously, and to characterize compositional diversity.

We started planning in eager anticipation of the preliminary results from our downlink and whether the CheMin X-ray diffraction spectrometer received enough sample of the "Kilmarie" drill sample to successfully complete a first night of analysis.

The drilling planned for last weekend was successful, so the top priority for Sol 2386 is to drop portions of the Kilmarie sample onto a closed SAM inlet cover and take Mastcam images after each dropoff to characterize the size of each portion.

Some days just give me goose bumps. First, looking at yesterday's plan I realized that we did something really unusual overnight: Wrap up the drill activity on one site and start the drill activities on the next in the same sol.

Yesterday's discussions with the science team focused on determining which target in the vicinity of "Aberlady" will become the focus of the next drill campaign: target 2, or target 3 (pictured in the Sol 2379 Mission Update).

With our time at Aberlady coming to a close, the search for our next drill target is in full swing. On Friday, the team discussed two different "bump" options that are near our current workspace and may be drillable.

This week's drill activities have been very power-intensive for Curiosity. So we'll spend today, Sol 2374, catching up on some remote science observations while waiting for data from yesterday's CheMin run to arrive.

After looking at our exciting new drill hole, "Aberlady," a few interesting observations were made: the drilled block lifted up a centimeter or two as the drill was retracted, there might be some evidence of a horizontal calcium sulfate (i.e. gypsum) vein within the drill hole, the drill went into the rock very easily (no percussion required), and the drill tailings look clumpier than usual.

Our drill attempt at target "Aberlady" this weekend was a success! In today's plan we are continuing our investigation of Aberlady and the surrounding areas and preparing to deliver our drilled sample to our onboard instruments.

In the current plan, we start with a dust devil survey to look for them while they are still in season. This is followed by a ChemCam investigation "Schiehallion" and an RMI mosaic on "Motherwell." Mastcam will finish off the investigation with multispectral images on the block in front of us, which contain the previous APXS targets "Fife" and "Arbuthnott." So far, so routine, but then there was the look in the rear-view mirror!

Today we planned Sol 2338 chock full of science activities to finish up our observations at the "Midland Valley" outcrop. We'll primarily use our Mastcam and ChemCam instruments to take a closer look at some interesting rock targets in our workspace.

Curiosity returned to science planning today after a two week hiatus because of a technical issue. Our most recent science plan, described in the blog for Sols 2320-2323, included a drive towards a blocky outcrop called "Midland Valley."

Similar to its namesake in Scotland, the Glen Torridon area on Mars affords us stunning vistas, but in our case, of the relatively low-lying clay bearing (from orbit) unit flanked to the north by the higher ground of the Vera Rubin Ridge and to the south, by Mount Sharp.

Sometimes the best laid plans of rovers go astray. After wrapping up at the Rock Hall drill site yesterday, the plan was for Curiosity to start driving towards the clay-bearing unit, starting with a series of small bumps so that MAHLI could take images of the full outer circumference of the wheels.

Today was our last day at "Rock Hall," so it was our final chance to get every last bit of science at this location. We had a 2.5 hour science block filled with Mastcam change detection imaging of the Rock Hall drill fines and alternating ChemCam RMI and LIBS observations of the Rock Hall dump pile, drill tailings, and target "St.Cyrus 2."

Today we planned a single sol of activities, Sol 2291. As we begin to wrap up our activities at the Rock Hall drill site, Sol 2291 is chock full of science observations. We'll begin the sol with an hour-long science block.

Our onboard instruments SAM (Sample Analysis at Mars) and CheMin (Chemistry and Mineralogy) have come to the end of their investigation of the Rock Hall target, likely to be our last drill location on the Vera Rubin Ridge, so this 2-sol plan is the beginning of the drill operation wrap up.

Today was a very smooth planning day on Mars, with the first scheduled science block in the plan being entirely filled by various spectroscopic ChemCam observations. The ChemCam instrument has the capabilities to be used in both passive and active modes, both of which were included in today's plan.

Today we are continuing the drill campaign at our red Jura target "Rock Hall." The focus of this weekend's plan is the dropoff of the Rock Hall sample to the SAM instrument, which will occur on Sol 2281.